CS204985B2 - Injection pump - Google Patents

Abstract

1465348 Fuel injection pumps SOC D'ETUDES DE MACHINES THERMIQUES . 26 June 1974 [26 June 1973] 28309/74 Heading F1A In a fuel injection pump comprising a pumping plunger 13, a reciprocable tappet 2, and a spring- loaded cup shaped intermediate member 4 for urging the plunger towards the tappet, holes 6 controlled by automatic one-way valves 17 extend through the intermediate member to prevent pressure from building up in a space 7. The relief of pressure from the space 7 reduces the possibility of fuel leakage therein causing seizure of the quantity control rack 12. Air and fuel which passes through the holes 6 enters a space 8 provided with a breather 14 and a fuel recovery duct 16. Each valve 17 is in the form of a resilient plate 18 secured at one end to the intermediate member 4, or a freely displaceable disc (21) accommodated in a recess (22) in an annular holder 20 fixed to the intermediate member.

Description

The invention generally relates to injection pumps, in particular to an improved injection pump for an internal combustion engine whose reciprocating piston of a constant stroke is actuated by a twin-head.

Injection pumps of this type associated with each cylinder of an internal combustion engine are known. However, their function has a number of drawbacks, for example the risk of blocking the control gear bar - the amount of fuel injected due to seizure or deposition.

The injection pump has a piston actuated by the tappet - and a sliding portion - for example, a guide piston - with displacements in the pump body and mounted between the piston and the tappet. This arrangement creates two spaces in the injection pump housing, a first space located above the guide piston on the side of the pump piston, and a second space formed below the guide piston, on the side of the tappet. Since the diameter of the tappet is larger than the diameter of the guide piston, which at the same time constitutes the recessing spring of the pump piston, air is compressed in both spaces when the tappet acts on the guide piston and through it on the pump piston. This is due to the fact that the compressed air tends to enter the gaps around the toothed rack and entrain fuel there, which can cause the toothed rack to seize and consequently impair the proper functioning of the injection pump. Therefore, it is necessary to prevent an increase in the air pressure in the spaces formed in the pump body at both sides of the guide piston in order not to block the toothed rack.

To avoid this danger, a simple solution has already been proposed which consists of creating one to several holes in the guide piston and thereby permanently connecting the two spaces. By this measure, the pressure build-up in the space - below the pump piston - and the guide piston are safely eliminated, so that the compressed air still has the possibility of escaping into the space by the guide piston and the tappet. - hazardous to the proper functioning of the control toothed rack.

SUMMARY OF THE INVENTION The object of the invention is to propose a modification of the injection pump which would completely prevent seizure of the control rod by the action of increased air pressure in the pump housing.

The above-mentioned drawbacks are eliminated by the internal combustion engine injection pump with a reciprocating piston, with a constant stroke referred to in a linear movement of the tappet and in a rotational control motion by a pinion engaging a pinion coaxial to the pump piston; which is displaceably disposed in the pump housing and is provided with a pump piston return spring seat through which guide piston and return spring seat pass through at least one opening connecting the first pump housing space formed above the guide piston to the second pump housing space formed below the guide piston according to The invention is characterized in that each of the holes of the guide piston bottom is provided with a shut-off device for automatically controlling the flow from the first chamber of the pump body to its second chamber.

Further, according to the invention, the closing device is formed by a resilient plate fixed in place of the side of the bottom of the guide piston facing the second space of the pump body. Also according to the invention, the closing device is formed by a disc loosely mounted in a recess of the coaxial ring and fixed to the guide piston on the side facing the second chamber of the pump housing.

Finally, according to the invention, the first space of the pump body is connected to its second space by grooves provided in the ring and guided by its recesses.

An advantage of the device according to the invention is that there is no overpressure in the space above the guide piston when the guide piston is moved upwards and when the guide piston is moved downwards. Due to the return spring, air is sucked into the space above the guide piston via the control toothed rack, so that there is no clogging of fuel residues therein, thereby reliably preventing it from seizing.

An advantage of the device according to the invention is that when the guide piston moves downwards in the pump housing by the action of a return spring, air is sucked through the toothed rod into the space above the guide piston, thereby preventing it from seizing.

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

Giant. 1 is a front elevational view of an injection pump according to the invention having a flap according to a first embodiment of the invention; FIG. 2 is a front elevational view of a portion of a guide piston provided with a pulley according to a second embodiment; 4 is a fragmentary elevational view of a detail of FIG. 1;

As shown in FIG. 1, the injection pump consists of a pump body 1 in which a reciprocating moving piston 3 of a constant-stroke pump and a tappet 2 are located. A guide piston 4 is inserted between the tappet 2 and the piston 3 of the pump. The guide piston 4 is provided with a seat 24 provided with grooves 25 at its bottom side and openings 2 'for supporting the return springs 5 of the pump piston 3 and having a plurality of through holes 6 through which the first space 7, formed above the guide Char TEM - 4 of page ¹ tappet 2. In FIG. 1, the far-shown cam 9 connected to the shaft 10 which moves the tappet 2 by acting on the roller 11 fixedly connected -with tappet 2.

The injection pump according to the invention is further provided with a toothed rack 12 operated by suitable means (not shown) for rotating the piston 3 of the pump and allowing its reciprocating movement within the injection pump housing 1. The piston 3 of the pump is provided in a known manner with a screw groove 13 for supplying fuel depending on the position of the piston 3 of the gear-operated pump 12. The breather 14 interconnects the second space 8 with the external atmosphere and has several fuel separation walls 15 air. A bore 16 is provided in the pump housing 1 for recovering the spent fuel. A deaerator 14 is not necessarily required, and if the injection pump is not provided, the air is forced out by the bore 16.

Each through hole 6 of the guide piston 4 is provided with a closing device 17 on the side of the second chamber 8.

In the embodiment according to FIG. 1, the closure device 17 has the shape of a resilient plate 18 fixed at a location 19 on the guide piston 4. The fixing can be carried out in any way, for example screws, rivets, welding or the like . The design of the closure device 17 and its fastening is therefore very simple.

In the embodiment of the closing device 17 shown in FIGS. 2 and 3, each flap is designed as a disc 21 of suitable material so that it can cover the through hole 6 of the guide piston 4 while being freely received in the recess 22 formed in the ring 20. fixed on the guide piston 4 by any suitable means, for example by riveting, welding or screws. As can be seen from FIG. 3, the recesses 22 for the discs 21 are connected to the grooves 23 by the embodiments in the ring 20 and allow air to be removed from the second chamber 8 when the guide piston 4 moves upwards.

Upon movement of the tappet 2 by the cam 9 acting on the tappet 11 of the tappet 2, it comes into contact with the guide piston 4, thereby also moving the piston 3 of the pump, causing air to be compressed in the first chamber 7 and as a result. Automatic opening of the closure device 17. In the case shown in Fig. 1, the flexible plates 18 move away from their through holes 6 and in the case of the closure device 17 shown in FIG. 2, the discs 21 lie on the bottom of the recesses 22. Thus, preferably, an increase in pressure in the first chamber 7 is prevented. The opening of the closing device 17 aids the effect of the inertial force due to the acceleration of the guide piston 4.

When the guide piston 4 begins to move downwardly, the closure device 17 automatically closes from the moment when the compressed air has left the first space 7. The closing devices 17 are now closed and the guide piston 4 moves downwardly. it moves in the pump housing 1 so that a vacuum is created in the first chamber 7, which means that air is sucked through the rack 12, thereby preventing it from seizing due to the deposition of fuel leakage. The compressed air in the second space 8 exits through the air vent 14 or through the bore 16 to recover the leaking fuel.

During the upward movement of the guide piston 4, the air in the first rector 7 is not compressed or compressed only a little and during the downward movement of the guide piston 4 a negative pressure is generated in the first space 7.

Thus, the problem of overpressure of air inside the injection pump of the kind described and in particular of the relatively large diameter of the tappets 2 relative to the diameter of the guide piston 4 is advantageously solved by an arrangement according to the invention spring plates 18 or discs 21 which are loosely received in a ring 20 fixedly connected to the guide piston 4.

The invention is not limited to the two flap embodiments described and shown, which are exemplary only. The invention encompasses all technical variations of the described compositions, as well as combinations thereof, if these are made within the spirit of the invention.

Claims (4)

1. An internal combustion engine with a reciprocating piston, with a constant stroke, in a linear movement of the tappet and a rotary control motion with a pinion engaging a pinion coaxial with the pump piston, a guide piston mounted between the pump piston and the tappet. sliding in the pump housing and having a piston return spring seat through which guide piston and return spring seat pass through at least one opening connecting a first pump housing space formed above the guide piston to a second pump housing space formed below the guide piston, characterized in that each of the through holes The opening (6) of the bottom of the guide piston (4) is provided with a shut-off device (17) for automatically controlling the flow from the first chamber (7) of the pump body (1) to its second chamber (8). VYNALEZU Injection pump according to Claim 1, characterized in that the closing device (17) is formed by a resilient plate (18) mounted at a location (19) of the bottom side of the guide piston (4) facing the second space (8) of the pump body (1). Injection pump according to claim 1, characterized in that the closing device (17) is formed by a disc (21) loosely received in a recess (22) of the ring (20) coaxial and fixed to the guide piston (4) on the side facing the second chamber ( 8) pump housings (1). Injection pump according to one of Claims 1 to 3, characterized in that the first space (7) of the pump body (1) is connected to its second space (8) by grooves (23) provided in the ring (20) and guided by its recesses (22). .